Boreal forests store 30% of the world's terrestrial carbon (C). Consequently, climate change mediated alterations in the boreal forest fire regime can have a significant impact on the global C budget. Here, we synthesize the effects of forest fires on the stocks and recovery rates of C in boreal forests from 368 plots from 16 long-term (= 100 years) fire chronosequences spread throughout the boreal zone. The mean annual temperature varied from -9.5°C to +5.2°C and annual precipitation from 295 mm to 824 mm in the study sites. Total C stocks decreased on average by 60% (range from 80%) because of forest fires, primarily due to large declines in the living trees and O-layer C stocks. C emissions of fires ranged from 0.1 to 11.4 kg m-2, and in most cases, the emissions were
Revised: September 30, 2020 |
Published: August 3, 2020
Citation
Palviainen M., A. Laurén, J. Pumpanen, Y. Bergeron, B. Bond-Lamberty, M. Larjavaara, and D. Kashian, et al. 2020.Decadal-scale recovery of carbon stocks after wildfires throughout the boreal forests.Global Biogeochemical Cycles 34, no. 8:Article No. e2020GB006612.PNNL-SA-150982.doi:10.1029/2020GB006612